Debris Trap

ABSTRACT

A debris trap catches debris falling through a fuel bundle orifice in a nuclear reactor. The debris trap includes a shaft and a debris capture tray attached to an end of the shaft. The debris capture tray includes a tray cavity sized larger than the fuel bundle orifice.

BACKGROUND OF THE INVENTION

The invention relates to equipment for use in a nuclear reactor and, more particularly, to a debris trap for catching debris falling through a fuel bundle orifice in a nuclear reactor.

A typical fuel assembly in a boiling water nuclear reactor includes a lower tie plate, an upper tie plate and a matrix of sealed fuel rods supported between upper and lower tie plates. The fuel rods contain nuclear fuel pellets in sealed containment for supporting a required critical reaction for the generation of steam. A channel surrounds the tie plates and fuel rods.

Periodically, the locations of fuel bundles are changed, and when the bundles are moved, debris can fall from the moving bundle into other bundles. Such debris may affect operation of the reactor and may cause failures, and it is thus desirable to prevent any debris from falling into other bundles.

BRIEF DESCRIPTION OF THE INVENTION

In an exemplary embodiment, a debris trap is provided for catching debris falling through a fuel bundle orifice in a nuclear reactor. The debris trap includes a shaft including a pivot actuator at one end thereof, and a debris capture tray pivotally attached to an opposite end of the shaft. The debris capture tray includes a tray cavity sized larger than the fuel bundle orifice, and the pivot actuator is operable to pivot the debris capture tray between an insertion position and a capture position.

In another exemplary embodiment, the debris trap includes a shaft and a debris capture tray attached to the shaft. The debris capture tray includes a conical tray cavity having a maximum diameter larger than a width of the fuel bundle orifice.

In yet another exemplary embodiment, a method of inserting a debris trap in a fuel bundle includes the steps of lowering the debris trap to a position adjacent a bottom of the fuel bundle; and (b) positioning the debris capture tray under the fuel bundle.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a rear perspective view of the debris trap described herein;

FIG. 2 is a front perspective view of the debris trap; and

FIG. 3 shows the debris trap in its insertion position.

DETAILED DESCRIPTION OF THE INVENTION

With reference to the drawings, a debris trap 10 serves to catch debris falling through a fuel bundle orifice in a nuclear reactor. The debris trap 10 includes a shaft 12 having a pivot actuator 14 (shown schematically via arrows in FIG. 1) at one end thereof. A debris capture tray 16 is pivotally attached to an opposite end of the shaft 12. A pivot mechanism (described below) connected between the debris capture tray 16 and the shaft 12 is actuated by the pivot actuator 14 to pivot the debris capture tray 16 via the pivot mechanism between an insertion position (shown in FIG. 3) and a capture position (shown in FIGS. 1 and 2).

The debris capture tray 16 includes a tray cavity 17 that is sized larger than the fuel bundle orifice. Preferably, the tray cavity 17 is conical to reduce the possibility of debris exiting the tray 16.

A length of the shaft 12 is preferably sufficient to extend from a refueling bridge of the nuclear reactor to a bottom of the fuel bundle. Of course, the length of the shaft 12 may vary depending on desired use, size of the reactor, etc.

A pivot shaft 18 is slidably coupled with the shaft 12 and is connected to the pivot actuator 14. The pivot mechanism may be any number of mechanical arrangements that enable the debris capture tray 16 to pivot between the insertion position and the capture position. As shown, the pivot mechanism includes a tray bracket 20 secured to the debris capture tray 16 and a link 22 connected between the tray bracket 20 and the pivot shaft 18. A shaft connector 24 may be connected between the shaft 12 and the debris capture tray 16. The shaft connector 24 is pivotally connected to the debris capture tray 16 via a pivot joint 26, where relative movement of the pivot shaft 18 to the shaft 12 causes the debris capture tray 16 to pivot between the insertion position and the capture position. As shown in FIG. 3, in the insertion position, the debris capture tray 16 may be oriented substantially in alignment with the shaft 12.

The pivot actuator 14 may be of any suitable construction to effect relative positioning of the pivot shaft 18 to the shaft 12. The actuator 14 may include a manual actuator or an automated actuator such as a pneumatic actuator or the like.

The debris capture tray 16 preferably also includes a vacuum port 28 that is attachable to a vacuum source. If included, the vacuum system serves to remove the debris from the tray while also pulling additional debris from the bundle.

In order to insert the debris trap 10 under a fuel bundle of a nuclear reactor, with the debris capture tray 16 in the insertion position (FIG. 3), the debris trap 10 is lowered to a position adjacent a bottom of the fuel bundle. The debris trap may be lowered from the refueling bridge in the reactor. Once the fuel bundle is lifted by the mast, the debris capture tray 16 is pivoted to the capture position (FIGS. 1 and 2). The debris capture tray 16 is then positioned under the fuel bundle, completely covering the orifice in the bottom of the bundle so that any debris falling through the orifice will fall in the cavity 17 of the debris capture tray 16. Preferably, the debris trap 10 remains in place until the mast is at the new bundle location.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. 

1. A debris trap for catching debris falling through a fuel bundle orifice in a nuclear reactor, the debris trap comprising: a shaft including a pivot actuator at one end thereof; and a debris capture tray pivotally attached to an opposite end of the shaft, wherein the debris capture tray includes a tray cavity sized larger than the fuel bundle orifice, and wherein the pivot actuator is operable to pivot the debris capture tray between an insertion position and a capture position.
 2. A debris trap according to claim 1, wherein a length of the shaft is sufficient to extend from a refueling bridge of a nuclear reactor to a bottom of the fuel bundle.
 3. A debris trap according to claim 1, wherein the tray cavity of the debris capture tray is conical.
 4. A debris trap according to claim 1, further comprising a pivot mechanism connected between the debris capture tray and the shaft, the pivot mechanism being actuated by the pivot actuator.
 5. A debris trap according to claim 4, further comprising a pivot shaft slidably coupled with the shaft and connected to the pivot actuator, wherein the pivot mechanism comprises a tray bracket secured to the debris capture tray, and a link connected between the tray bracket and the pivot shaft.
 6. A debris trap according to claim 5, further comprising a shaft connector connected between the shaft and the debris capture tray, the shaft connector being pivotally connected to the debris capture tray via a pivot joint, wherein relative movement of the pivot shaft to the shaft causes the debris capture tray to pivot between the insertion position and the capture position.
 7. A debris trap according to claim 6, wherein in the insertion position, the debris capture tray is oriented substantially in alignment with the shaft.
 8. A debris trap according to claim 1, further comprising a vacuum port in the debris capture tray and attachable to a vacuum source.
 9. A debris trap for catching debris falling through a fuel bundle orifice in a nuclear reactor, the debris trap comprising: a shaft; and a debris capture tray attached to the shaft, wherein the debris capture tray includes a conical tray cavity having a maximum diameter larger than a width of the fuel bundle orifice.
 10. A debris trap according to claim 9, further comprising: a pivot actuator at one end of the shaft, wherein the debris capture tray is pivotally attached to an opposite end of the shaft; and a pivot mechanism connected between the debris capture tray and the shaft, the pivot mechanism being actuated by the pivot actuator, wherein the pivot actuator is operable to pivot the debris capture tray via the pivot mechanism between an insertion position and a capture position.
 11. A debris trap according to claim 10, wherein in the insertion position, the debris capture tray is oriented substantially in alignment with the shaft.
 12. A debris trap according to claim 9, further comprising a vacuum port in the debris capture tray and attachable to a vacuum source.
 13. A method of inserting a debris trap in a fuel bundle of a nuclear reactor, the debris trap including a shaft and a debris capture tray attached to the shaft, the method comprising: (a) lowering the debris trap to a position adjacent a bottom of the fuel bundle; and (b) positioning the debris capture tray under the fuel bundle.
 14. A method according to claim 13, wherein step (a) is practiced from a refueling bridge of the nuclear reactor.
 15. A method according to claim 13, further comprising attaching a vacuum source to a vacuum port on the debris capture tray.
 16. A method according to claim 13, wherein the debris trap includes a pivot actuator at one end thereof, and wherein the debris capture tray is pivotally attached to an opposite end of the shaft and is pivotable via the pivot actuator between an insertion position and a capture position, the method further comprising performing step (a) with the debris capture tray in the insertion position, and prior to step (b), pivoting the debris capture tray to the capture position. 